A method of removing one or more antibiotics from a dairy product, the method involve passing the dairy product comprising an antibiotic in a first amount through a bulk comprising, relative to a total bulk weight, at least 75 wt. % of titanium oxide nanostructures, to provide the dairy product comprising the antibiotic in a second, lesser amount, wherein the nanostructures have lengths at least two-fold in excess of their width and height. Bulk materials useful in this or related methods or applications may have loosely tangled, noodle-like morphologies on sub-100 nm scale, and need not employ graphene and/or polymeric support networks in columns, generally having only titanium oxides without silicon or iron oxides.

Methods of cannabis deflavoring, cannabis reflavoring, and combinations thereof are described. In some embodiments, the methods described herein allow the deflavored cannabis plant matter to absorb an essence of the at least one flavoring agent without the cannabis plant matter directly contacting the at least one flavoring agent. Cannabis flavoring devices are further described. In some embodiments, the cannabis flavoring device is configured to allow the cannabis plant matter to absorb an essence of the at least one flavoring agent without the cannabis plant matter directly contacting the at least one flavoring agent.

A method of removing one or more antibiotics from a dairy product, the method involve passing the dairy product comprising an antibiotic in a first amount through a bulk comprising, relative to a total bulk weight, at least 75 wt. % of titanium oxide nanostructures, to provide the dairy product comprising the antibiotic in a second, lesser amount, wherein the nanostructures have lengths at least two-fold in excess of their width and height. Bulk materials useful in this or related methods or applications may have loosely tangled, noodle-like morphologies on sub-100 nm scale, and need not employ graphene and/or polymeric support networks in columns, generally having only titanium oxides without silicon or iron oxides.

The present invention relates to aqueous compositions comprising cyclodextrins or carbohydrates. The present invention also relates to the use of such compositions in the binding and removal of mycotoxins from foodstuff. The invention also includes compositions that show a broad affinity for mycotoxins.

Disclosed is a natural compound sweetener, comprising mogroside V, rebaudioside A, natural tea theanine and dietary fibre. The method for preparing the sweetener comprises the steps of: (1) dissolution, filtration, concentration and sterilization: dissolving the mogroside V, rebaudioside A, natural tea theanine and dietary fibre in water, filtering, concentrating in a vacuum, and sterilizing to obtain a sterilized solution; and (2) paste-collection, drying and granulation: carrying out paste-collection on the sterilized solution obtained in the step (1), vacuum drying the collected liquid paste, and drying and then granulating the dry powder to obtain the sweetener.

This specification relates to a process for preparing a purified human milk oligosaccharide (“HMO”) from an HMO-containing solution (e.g., a fermentation broth) by a process comprising removal of an antifoam agent, and a product of such a process.

Disclosed is a method for the manufacture of a spray-dried powder consisting essentially of LNT and/or LNnT, the spray-dried powder, its use for the manufacture of nutritional compositions, and nutritional compositions containing the spray-dried powder.

A process of forming a treated clay composition, a process of decaffeination, and a treated clay composition are shown. The process of forming the treated clay composition includes providing a first solution of caffeine molecules and non-caffeine molecules, extracting the caffeine molecules to form a pretreatment solution, and bringing a clay composition into contact with the pretreatment solution to form the treated clay composition, on which at least one of the non-caffeine molecules is adsorbed. The process of decaffeination includes providing a solution of caffeine and non-caffeine molecules, and bringing the solution into contact with a treated clay composition. The treated clay composition includes organic molecules adsorbed on mineral layers of a clay. The organic molecules are non-caffeine molecules from a pretreatment solution.

The invention provides non-dairy, plant-based components, having reduced trace element contents, food products and nutritional compositions comprising them and methods for their preparation.

A method for decolorization and deodorization of egg yolk oil comprises at least: adding a first ether solution to a crude egg yolk oil, and performing a first stirring process, to produce a first egg yolk oil mixture; adding activated carbon to the first egg yolk oil mixture, performing a second stirring process, and removing the activated carbon, to produce a second egg yolk oil mixture; adding a second ether solution and distilled water to the second egg yolk oil mixture, and performing a third stirring process, to produce a third egg yolk oil mixture; and removing distilled water, part of the first ether solution, and part of the second ether solution from the third egg yolk oil mixture by a distillation process, and removing the remaining first ether solution and the remaining second ether solution by a vacuum process to produce a decolorized and deodorized egg yolk oil.